FTIR-ATR infrared spectroscopy for the detection of ochratoxin A in dried vine fruit.

Food additives and contaminants Pub Date : 2007-11-01 DOI:10.1080/02652030701452108

Andrea C Galvis-Sánchez, Antonio Barros, Ivonne Delgadillo

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引用次数: 24

Abstract

A method of screening sultanas for ochratoxin A (OTA) contamination, using mid-infrared spectroscopy/Golden Gate single-reflection ATR (attenuated total reflection), is described. The main spectral characteristics of sultanas from different sources were identified in a preliminary acquisition and spectral analysis study. Principal component analysis (PCA) showed that samples of various origins had different spectral characteristics, especially in water content and the fingerprint region. A lack of reproducibility was observed in the spectra acquired on different days. However, spectral repeatability was greatly improved when water activity of the sample was set at 0.62. A calibration curve of OTA was constructed in the range 10-40 microg OTA kg(-1). Samples with OTA levels higher than 20 microg kg(-1) were separated from samples contaminated with a lower concentration (10 microg OTA kg(-1)) and from uncontaminated samples. The reported methodology is a reliable and simple technique for screening dried vine fruit for OTA.

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FTIR-ATR红外光谱法检测葡萄干果中赭曲霉毒素A。

本文描述了一种利用中红外光谱/金门单反射ATR(衰减全反射)筛选赭曲霉毒素A (OTA)污染的方法。通过初步采集和光谱分析研究，确定了不同来源苏丹属植物的主要光谱特征。主成分分析(PCA)表明，不同产地的样品具有不同的光谱特征，特别是在水分和指纹区。在不同日期获得的光谱中观察到缺乏再现性。然而，当样品的水活度设置为0.62时，光谱的重复性大大提高。在10 ~ 40 μ g OTA kg(-1)范围内建立OTA标定曲线。将OTA浓度高于20 μ g kg(-1)的样品与较低浓度(10 μ g OTA kg(-1))污染的样品和未污染的样品分离。所报道的方法是一种可靠和简单的技术筛选葡萄干果实OTA。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Food additives and contaminants

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